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Diverse crop rotations improve yield, stability, soil health
Stacy Campbell
Stacy Campbell

Farm profitability from grain production is an age-old concern of farmers. Improving yield stability is also an important management strategy to counteract weather extremes (i.e., heat waves, droughts, flooding) that stress both crop growth and farm profitability. Farmers need reliable information about the effectiveness of crop rotation and fertilizer management that involves many years of data to account for the year-to-year variability in growing conditions. 

Below is a summary of the results from a long-term rainfed no-till crop rotation and nitrogen (N) fertilizer systems study conducted by the USDA Agricultural Research Service at the University of Nebraska-Lincoln’s Eastern Nebraska Research and Extension Center (ENREC). Even though this study was conducted in eastern Nebraska, the concept of crop rotations to improve yield, yield stability, and soil health, should be applicable to probably any region in the Great Plains. One exception would be the soybean results would be less applicable to western Kansas. While producers typically increase fertilizer amounts for continuous crops, fertilizer inputs were determined by the crop phase present during the year of application to maintain experimental uniformity.


More diverse rotations improve yield and yield stability

• Under no fertilization (0N), yield for corn or grain sorghum rotated with soybean was similar to grain yield in fertilized continuous cropping systems. 

• Compared to continuous cropping, fertilized corn yield improved 29% and fertilized grain sorghum yield improved 20% when grown in two-year rotations, and up to 48% (corn) and 29% (grain sorghum) when grown in four-year rotations that included a legume winter cover crop in just one of four of those years. 

• Soybean yield was stable regardless of N application and tended to improve with rotation complexity. 

• Rotating crops increased long-term yield stability and decreased crop losses during drought by 14-90% compared to continuous cropping.


Yield benefits from crop rotations are similar to N fertilizer, but more stable over time

• Yield responses for corn and grain sorghum were similar at low N (80 lb N/ac) and high N (160 lb N/ac), suggesting that crop N demands were met at the low N rate. 

• Adding fertilizer-N to the most diverse rotations did not increase yield.

• Fertilizer-N responses decreased over time, but crop rotation benefits were maintained (grain sorghum) or increased (corn) over time. This suggests that the benefits of rotation on crop N nutrition increasingly displaced the effect of fertilizer N over time.

• Rotating crops increased yields similar to fertilizer-N even with no fertilizer use (0N).

• The sequence of crops in rotation also affected yield outcomes. 


More diverse crop rotations had more soil organic C (SOC) than fertilizer-N

• The soil organic carbon (SOC) increased with rotation diversity down to 5 feet deep.

• The grain sorghum/soybean rotation had the lowest SOC content to 5 feet depth due to lower root mass and length in both crop types.

• The effect of crop rotation effects on SOC were equal to or greater than the effect of fertilizer-N.

• Clover cover crops added N to the soil for crop and microbial uptake.

• Crop rotation and cover crops can build soil organic matter and improve soil water retention, likely contributing to more stable yields and greater resilience to adverse weather.


Conclusions - Crop rotation has been used by farmers for generations to improve grain yields by regenerating the soil and breaking the cycles of weeds, diseases and insect damage to crops. This long-term study in eastern Nebraska showed that crop rotation had more agronomic and soil benefits compared to fertilizer-N alone. Fertilizer-N use, while beneficial, was no substitute for using crop rotation. In the long-term, rotating two or more crops can improve the soil and crop yields with less fertilizer-N cost.   

To see the charts and graphs that accompanied this study go to https://cropwatch.unl.edu it is in the October 29, 2021 UNL Crop Watch newsletter. 


Stacy Campbell is an Agriculture and Natural Resources agent for Cottonwood Extension District. Email him at scampbel@ksu.eduor call the Hays office, 785-628-9430.